Thermal Infrared Detectors

Products & Services

Description:
The LHi 874 pyroelectric infrared detector is very well suited with two detectors arranged in one common sensing unit for up to 180 degree view. It is offered in low profile TO-39 housing with standard infrared filter.
Features & Benefits
TO-39 metal housing
Applications
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Description:
The OS1561 and OS1571 stand-alone line of sight infrared pyrometers provide a 10 msec time constant for applications requiring exceptionally fast and accurate non-contact temperature measurements. It is a compact and rugged unit, with 1 mv/degree outputs, and is compatible with a variety

Description:
Description: Thermopiles are mainly used for contactless temperature measurement in many applications. Their function is to transfer the heat radiation emitted from the objects into a voltage output
Features:
High Signal
Accurate NTC Reference Sensor
5.0µm Long Wave Pass Filter

Description:
Features: A thin-film thermopile in a TO-5 package with an active area of 3.16mm x 0.4mm that offers low noise output. Applications: Non-contact temperature measurement for industrial and medical, including infant incubators. Benefit: Centered rectangular active area and low noise with moderate

Description:
This state of the art non contact infrared temperature sensor operates with a wavelength of 1/1.6 um. This special spectral range minimizes the emissivity errors on shiny targets and allows readings through glass. The integrated photon detector guarantees maximum sensitivity and extreme fast

Description:
Description: TSEV0108L39 is a contact-less temperature measuring system for OEM use based on the detection of infrared radiation. TSEV0108L39 is equipped with an infrared sensor (Thermopile) in front. In this version a Thermopile Array, including 8 pixels, is used. It has to be pointed

Description:
The smallest sized IR temperature sensor in the world now has brains. By combining the OS36-SM sensor head with the OS35 platform, precision in small places is now a reality. The OS35 processes the signal from the microIRt/c, linearizes, and gives an analog output (4 to 20 mA, 0 to 5V, 0 to 10V).

Description:
The unique OS36SM IR t/cTM brings together the economical thermocouple with the advantages of non-contact temperature measurement. The OS36SM produces a thermocouple output signal that can be used with the HHM290.

Description:
Dwyer Series ILA Non-Contact Sensors, measure temperatures from 32 to 932°F (0 to 500°C) and provide a linear 4 to 20 mA, 0 to 5 VDC or thermocouple output. The 2-wire signal is compatible with almost any indicator, controller, recorder, data logger, etc., without the need for special

Description:
With the PMA2143 thermopile radiant fluxes can be measured. It is sensitive to radiation from 0.2 to 50 µm, and has a field of view of 10°. It brings the unsurpassed features and high accuracy of this class of instruments into the price range of photovoltaic detectors.
FEATURES
Flat

Description:
Watlow offers a selection of Raytek® infrared temperature sensors. These sensors have the ability to measure the temperature in fast-moving processes quickly and efficiently in various manufacturing applications. These sensors measure the temperature of a product directly, instead of the oven

Description:
These models allow for the user to calibrate the IRt/c's to match a thermocouple in whatever temperature range they desire. The range adjustment screw is adjusted to calibrate for temperature range of interest and material properties (emissivity). Models for non-metals (HiE) and metals (LoE) are

Description:
The HFP01 provides soil heat flux measurements—typically for energy balance or Bowen ratio flux systems. It outputs a voltage signal that is proportional to the heat flux of the surrounding medium. At least, two sensors are required for each site to provide spatial averaging. Sites with

Description:
Description
The optical head and detector amplifier are connected via a protected hi temperature glass fiber optic cable, whereby the captured infrared energy is transmitted onto the detector, which is installed at a remote location to better isolate the electronics from the heat source

Description:
The NCIT-LC Plus is a versatile two-piece system with a miniature sensing head and separate electronics. The sensor is small enough to be installed just about anywhere, yet it performs as well as much larger systems. The sensor is housed in rugged stainless steel to ensure long- term performance,

Dexter Research Center, Inc.Thermopile Detector for Gas Analysis
... Leader in Infrared Thermopile Detectors: Dexter Research Center, Inc. was founded by Robert Toth, Ph.D in 1977. A leading thin film and materials expert, Bob believed then and now that: No other infrared device outperforms a thermopile as an affordable detector, and. There is no substitute for collaboration as a means to optimize infrareddetector performance, packaging, reliability and durability to surpass the current benchmarks and beyond our customer expectations. From either the perspective...
(read more)Browse Gas Instruments Datasheets for Dexter Research Center, Inc.

Dexter Research Center, Inc.Gas Analysis ...Thermopile Detector
encapsulation gas. Delivers a very low Temperature Coefficient of Responsivity of -0.04%/ °C. This detector has a very short thermal shock response to ambient temperature change. View additional information... Excellent for gas analysis, position sensor, and horizon sensor. Benefit: Low cost with high output. About Dexter Research - The World Leader in Infrared Thermopile Detectors: Dexter Research Center, Inc. was founded by Robert Toth, Ph.D in 1977. A leading thin film and materials expert...
(read more)Browse Gas Instruments Datasheets for Dexter Research Center, Inc.

Dexter Research Center, Inc.Temperature Sensor Modules...Expanded Range
accommodate systems with up to 100 modules. A wide variety of freezing/boiling prevention and alert systems are made possible thanks to a built-in thermal relay function. About Dexter Research - The World Leader in Infrared Thermopile Detectors: Dexter Research Center, Inc. was founded by Robert Toth, Ph.D in 1977. From either the perspective of systems performance or systems cost, customized applications of Dexter Research's thermopile technology continue to be the preferred solutions...
(read more)Browse Temperature Sensors Datasheets for Dexter Research Center, Inc.

Dexter Research Center, Inc.Temperature Sensor Module: Expanded Ranges
prevention and alert systems are made possible thanks to a built-in thermal relay function. About Dexter Research - The World Leader in Infrared Thermopile Detectors: Dexter Research Center, Inc. was founded by Robert Toth, Ph.D in 1977. From either the perspective of systems performance or systems cost, customized applications of Dexter Research's thermopile technology continue to be the preferred solutions to today's burgeoning infrareddetector market. Today, Dexter Research offers 31 core...
(read more)Browse Temperature Sensors Datasheets for Dexter Research Center, Inc.

Dexter Research Center, Inc.Thermopiles...Fire Suppression / Detection
with Nitrogen encapsulation gas. Delivers a very low Temperature Coefficient of Responsivity of -0.04%/ °C. This detector has a very short thermal shock response to ambient temperature change. About Dexter Research - The World Leader in Infrared Thermopile Detectors: Dexter Research Center, Inc. was founded by Robert Toth, Ph.D in 1977. A leading thin film and materials expert, Bob believed then and now that: No other infrared device outperforms a thermopile as an affordable detector...
(read more)Browse Temperature Sensors Datasheets for Dexter Research Center, Inc.

, or measured, allowing you to not only monitor thermal performance, but also identify and evaluate the relative severity of heat-related problems. Recent innovations, particularly detector technology, the incorporation of built-in visual imaging, automatic functionality, and infrared software

Moxtek has developed a high contrast IR polarizer on silicon suitable for long wavelength thermal IR applications using. our aluminum nanowire, large area patterning capabilities. Between 7 and 15 microns, our 144 nm pitch polarizers transmit better than 70% of the passing polarization state

Generally, the performance of an infrared camera is characterized by either the noise equivalent temperature difference (NETD) with respect to thermal resolution or by the instantaneous-field-of-view (IFOV) with respect to spatial resolution. The NETD represents an uncertainty in measuring

Adequate IR camera resolution is a combination of the IR camera detector and optics. The wise thermographer ensures the right system is available for the job at hand. This paper illustrates with real world measurements on actual thermal anomalies found in the field, the magnitude of error one can

In infraredthermal imaging, the temperatures are computed from the measured IR radiation according to Planck's law, modified by corrections due to the camera (detector response, transmission of optics, and more) as well as to the emitter, i.e., the object under consideration. The major problems

and technically, in literally hundreds of industrial applications. And they offer benefits thermal and visible-spectrum cameras do not, creating a performance/life-cycle cost advantage for SWIR, even in applications where both thermal and SWIR can technically do the job. Like visible CCD and CMOS detectors, SWIR